SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3135127814> ?p ?o ?g. }

Showing items 1 to 100 of ±182 with 100 items per page.

W3135127814 endingPage "1106" @default.
W3135127814 startingPage "1106" @default.
W3135127814 abstract "For the production of geopolymer concrete (GPC), fly-ash (FA) like waste material has been effectively utilized by various researchers. In this paper, the soft computing techniques known as gene expression programming (GEP) are executed to deliver an empirical equation to estimate the compressive strength fc′ of GPC made by employing FA. To build a model, a consistent, extensive and reliable data base is compiled through a detailed review of the published research. The compiled data set is comprised of 298 fc′ experimental results. The utmost dominant parameters are counted as explanatory variables, in other words, the extra water added as percent FA (%EW), the percentage of plasticizer (%P), the initial curing temperature (T), the age of the specimen (A), the curing duration (t), the fine aggregate to total aggregate ratio (F/AG), the percentage of total aggregate by volume ( %AG), the percent SiO2 solids to water ratio (% S/W) in sodium silicate (Na2SiO3) solution, the NaOH solution molarity (M), the activator or alkali to FA ratio (AL/FA), the sodium oxide (Na2O) to water ratio (N/W) for preparing Na2SiO3 solution, and the Na2SiO3 to NaOH ratio (Ns/No). A GEP empirical equation is proposed to estimate the fc′ of GPC made with FA. The accuracy, generalization, and prediction capability of the proposed model was evaluated by performing parametric analysis, applying statistical checks, and then compared with non-linear and linear regression equations." @default.
W3135127814 created "2021-03-15" @default.
W3135127814 creator A5027160958 @default.
W3135127814 creator A5058875606 @default.
W3135127814 creator A5068382347 @default.
W3135127814 creator A5072746309 @default.
W3135127814 creator A5073427380 @default.
W3135127814 date "2021-02-26" @default.
W3135127814 modified "2023-10-03" @default.
W3135127814 title "Application of Gene Expression Programming (GEP) for the Prediction of Compressive Strength of Geopolymer Concrete" @default.
W3135127814 cites W1250845685 @default.
W3135127814 cites W1533156033 @default.
W3135127814 cites W1827739256 @default.
W3135127814 cites W1938499478 @default.
W3135127814 cites W1964208729 @default.
W3135127814 cites W1970245951 @default.
W3135127814 cites W1978958572 @default.
W3135127814 cites W1980352449 @default.
W3135127814 cites W1982537275 @default.
W3135127814 cites W1989788683 @default.
W3135127814 cites W1995035436 @default.
W3135127814 cites W2007411556 @default.
W3135127814 cites W2022695033 @default.
W3135127814 cites W2043054070 @default.
W3135127814 cites W2050726252 @default.
W3135127814 cites W2066452020 @default.
W3135127814 cites W2074060606 @default.
W3135127814 cites W2078968332 @default.
W3135127814 cites W2086741969 @default.
W3135127814 cites W2087652531 @default.
W3135127814 cites W2087987532 @default.
W3135127814 cites W2090283753 @default.
W3135127814 cites W2091782719 @default.
W3135127814 cites W2094377845 @default.
W3135127814 cites W2096185550 @default.
W3135127814 cites W2101226377 @default.
W3135127814 cites W2107200843 @default.
W3135127814 cites W2144309009 @default.
W3135127814 cites W2179366628 @default.
W3135127814 cites W2196722862 @default.
W3135127814 cites W2234671309 @default.
W3135127814 cites W2293514964 @default.
W3135127814 cites W2329585455 @default.
W3135127814 cites W2344192033 @default.
W3135127814 cites W2407463458 @default.
W3135127814 cites W2414516952 @default.
W3135127814 cites W2485049350 @default.
W3135127814 cites W2530125237 @default.
W3135127814 cites W2551875727 @default.
W3135127814 cites W2556156268 @default.
W3135127814 cites W2600516206 @default.
W3135127814 cites W2604524001 @default.
W3135127814 cites W2604829205 @default.
W3135127814 cites W2625502340 @default.
W3135127814 cites W2737792571 @default.
W3135127814 cites W2738463733 @default.
W3135127814 cites W2762638498 @default.
W3135127814 cites W2766676502 @default.
W3135127814 cites W2793735948 @default.
W3135127814 cites W2794315224 @default.
W3135127814 cites W2886514679 @default.
W3135127814 cites W2893482420 @default.
W3135127814 cites W2900753047 @default.
W3135127814 cites W2901188054 @default.
W3135127814 cites W2901279671 @default.
W3135127814 cites W2909623353 @default.
W3135127814 cites W2911507272 @default.
W3135127814 cites W2920879774 @default.
W3135127814 cites W2923370583 @default.
W3135127814 cites W2939327051 @default.
W3135127814 cites W2947325973 @default.
W3135127814 cites W2965858986 @default.
W3135127814 cites W2972648913 @default.
W3135127814 cites W2975124329 @default.
W3135127814 cites W2976039593 @default.
W3135127814 cites W2981195734 @default.
W3135127814 cites W2981719452 @default.
W3135127814 cites W2994558451 @default.
W3135127814 cites W2996123592 @default.
W3135127814 cites W2997771607 @default.
W3135127814 cites W2998134678 @default.
W3135127814 cites W2999099326 @default.
W3135127814 cites W3000483839 @default.
W3135127814 cites W3016690745 @default.
W3135127814 cites W3025478564 @default.
W3135127814 cites W3027905172 @default.
W3135127814 cites W3033948174 @default.
W3135127814 cites W3038122322 @default.
W3135127814 cites W3040854711 @default.
W3135127814 cites W3045621649 @default.
W3135127814 cites W3081231874 @default.
W3135127814 cites W3081342661 @default.
W3135127814 cites W3087991416 @default.
W3135127814 cites W3092408082 @default.
W3135127814 cites W3110383169 @default.
W3135127814 cites W608402566 @default.
W3135127814 cites W879813313 @default.
W3135127814 doi "https://doi.org/10.3390/ma14051106" @default.